use super::*;
use alloy_rlp::RlpEncodable;
use serde::{Deserialize, Serialize};
use ssz::Decode;
use strum::EnumString;
use superstruct::superstruct;
use types::beacon_block_body::KzgCommitments;
use types::blob_sidecar::BlobsList;
use types::execution_requests::{
    ConsolidationRequests, DepositRequests, RequestType, WithdrawalRequests,
};
use types::{Blob, FixedVector, KzgProof, Unsigned};

#[derive(Debug, PartialEq, Serialize, Deserialize)]
#[serde(rename_all = "camelCase")]
pub struct JsonRequestBody<'a> {
    pub jsonrpc: &'a str,
    pub method: &'a str,
    pub params: serde_json::Value,
    pub id: serde_json::Value,
}

#[derive(Debug, PartialEq, Serialize, Deserialize)]
pub struct JsonError {
    pub code: i64,
    pub message: String,
}

#[derive(Debug, PartialEq, Serialize, Deserialize)]
#[serde(rename_all = "camelCase")]
pub struct JsonResponseBody {
    pub jsonrpc: String,
    #[serde(default)]
    pub error: Option<JsonError>,
    #[serde(default)]
    pub result: serde_json::Value,
    pub id: serde_json::Value,
}

#[derive(Debug, PartialEq, Clone, Serialize, Deserialize)]
#[serde(transparent)]
pub struct TransparentJsonPayloadId(#[serde(with = "serde_utils::bytes_8_hex")] pub PayloadId);

impl From<PayloadId> for TransparentJsonPayloadId {
    fn from(id: PayloadId) -> Self {
        Self(id)
    }
}

impl From<TransparentJsonPayloadId> for PayloadId {
    fn from(wrapper: TransparentJsonPayloadId) -> Self {
        wrapper.0
    }
}

/// On the request, use a transparent wrapper.
pub type JsonPayloadIdRequest = TransparentJsonPayloadId;

/// On the response, expect without the object wrapper (non-transparent).
#[derive(Debug, PartialEq, Serialize, Deserialize)]
#[serde(rename_all = "camelCase")]
pub struct JsonPayloadIdResponse {
    #[serde(with = "serde_utils::bytes_8_hex")]
    pub payload_id: PayloadId,
}

#[superstruct(
    variants(Bellatrix, Capella, Deneb, Electra, Fulu, Gloas),
    variant_attributes(
        derive(Debug, PartialEq, Default, Serialize, Deserialize,),
        serde(bound = "E: EthSpec", rename_all = "camelCase"),
    ),
    cast_error(ty = "Error", expr = "Error::IncorrectStateVariant"),
    partial_getter_error(ty = "Error", expr = "Error::IncorrectStateVariant")
)]
#[derive(Debug, PartialEq, Serialize, Deserialize)]
#[serde(bound = "E: EthSpec", rename_all = "camelCase", untagged)]
pub struct JsonExecutionPayload<E: EthSpec> {
    pub parent_hash: ExecutionBlockHash,
    #[serde(with = "serde_utils::address_hex")]
    pub fee_recipient: Address,
    pub state_root: Hash256,
    pub receipts_root: Hash256,
    #[serde(with = "serde_logs_bloom")]
    pub logs_bloom: FixedVector<u8, E::BytesPerLogsBloom>,
    pub prev_randao: Hash256,
    #[serde(with = "serde_utils::u64_hex_be")]
    pub block_number: u64,
    #[serde(with = "serde_utils::u64_hex_be")]
    pub gas_limit: u64,
    #[serde(with = "serde_utils::u64_hex_be")]
    pub gas_used: u64,
    #[serde(with = "serde_utils::u64_hex_be")]
    pub timestamp: u64,
    #[serde(with = "ssz_types::serde_utils::hex_var_list")]
    pub extra_data: VariableList<u8, E::MaxExtraDataBytes>,
    #[serde(with = "serde_utils::u256_hex_be")]
    pub base_fee_per_gas: Uint256,

    pub block_hash: ExecutionBlockHash,
    #[serde(with = "ssz_types::serde_utils::list_of_hex_var_list")]
    pub transactions: Transactions<E>,
    #[superstruct(only(Capella, Deneb, Electra, Fulu, Gloas))]
    pub withdrawals: VariableList<JsonWithdrawal, E::MaxWithdrawalsPerPayload>,
    #[superstruct(only(Deneb, Electra, Fulu, Gloas))]
    #[serde(with = "serde_utils::u64_hex_be")]
    pub blob_gas_used: u64,
    #[superstruct(only(Deneb, Electra, Fulu, Gloas))]
    #[serde(with = "serde_utils::u64_hex_be")]
    pub excess_blob_gas: u64,
}

impl<E: EthSpec> From<ExecutionPayloadBellatrix<E>> for JsonExecutionPayloadBellatrix<E> {
    fn from(payload: ExecutionPayloadBellatrix<E>) -> Self {
        JsonExecutionPayloadBellatrix {
            parent_hash: payload.parent_hash,
            fee_recipient: payload.fee_recipient,
            state_root: payload.state_root,
            receipts_root: payload.receipts_root,
            logs_bloom: payload.logs_bloom,
            prev_randao: payload.prev_randao,
            block_number: payload.block_number,
            gas_limit: payload.gas_limit,
            gas_used: payload.gas_used,
            timestamp: payload.timestamp,
            extra_data: payload.extra_data,
            base_fee_per_gas: payload.base_fee_per_gas,
            block_hash: payload.block_hash,
            transactions: payload.transactions,
        }
    }
}
impl<E: EthSpec> From<ExecutionPayloadCapella<E>> for JsonExecutionPayloadCapella<E> {
    fn from(payload: ExecutionPayloadCapella<E>) -> Self {
        JsonExecutionPayloadCapella {
            parent_hash: payload.parent_hash,
            fee_recipient: payload.fee_recipient,
            state_root: payload.state_root,
            receipts_root: payload.receipts_root,
            logs_bloom: payload.logs_bloom,
            prev_randao: payload.prev_randao,
            block_number: payload.block_number,
            gas_limit: payload.gas_limit,
            gas_used: payload.gas_used,
            timestamp: payload.timestamp,
            extra_data: payload.extra_data,
            base_fee_per_gas: payload.base_fee_per_gas,
            block_hash: payload.block_hash,
            transactions: payload.transactions,
            withdrawals: payload
                .withdrawals
                .into_iter()
                .map(Into::into)
                .collect::<Vec<_>>()
                .into(),
        }
    }
}
impl<E: EthSpec> From<ExecutionPayloadDeneb<E>> for JsonExecutionPayloadDeneb<E> {
    fn from(payload: ExecutionPayloadDeneb<E>) -> Self {
        JsonExecutionPayloadDeneb {
            parent_hash: payload.parent_hash,
            fee_recipient: payload.fee_recipient,
            state_root: payload.state_root,
            receipts_root: payload.receipts_root,
            logs_bloom: payload.logs_bloom,
            prev_randao: payload.prev_randao,
            block_number: payload.block_number,
            gas_limit: payload.gas_limit,
            gas_used: payload.gas_used,
            timestamp: payload.timestamp,
            extra_data: payload.extra_data,
            base_fee_per_gas: payload.base_fee_per_gas,
            block_hash: payload.block_hash,
            transactions: payload.transactions,
            withdrawals: payload
                .withdrawals
                .into_iter()
                .map(Into::into)
                .collect::<Vec<_>>()
                .into(),
            blob_gas_used: payload.blob_gas_used,
            excess_blob_gas: payload.excess_blob_gas,
        }
    }
}

impl<E: EthSpec> From<ExecutionPayloadElectra<E>> for JsonExecutionPayloadElectra<E> {
    fn from(payload: ExecutionPayloadElectra<E>) -> Self {
        JsonExecutionPayloadElectra {
            parent_hash: payload.parent_hash,
            fee_recipient: payload.fee_recipient,
            state_root: payload.state_root,
            receipts_root: payload.receipts_root,
            logs_bloom: payload.logs_bloom,
            prev_randao: payload.prev_randao,
            block_number: payload.block_number,
            gas_limit: payload.gas_limit,
            gas_used: payload.gas_used,
            timestamp: payload.timestamp,
            extra_data: payload.extra_data,
            base_fee_per_gas: payload.base_fee_per_gas,
            block_hash: payload.block_hash,
            transactions: payload.transactions,
            withdrawals: payload
                .withdrawals
                .into_iter()
                .map(Into::into)
                .collect::<Vec<_>>()
                .into(),
            blob_gas_used: payload.blob_gas_used,
            excess_blob_gas: payload.excess_blob_gas,
        }
    }
}

impl<E: EthSpec> From<ExecutionPayloadFulu<E>> for JsonExecutionPayloadFulu<E> {
    fn from(payload: ExecutionPayloadFulu<E>) -> Self {
        JsonExecutionPayloadFulu {
            parent_hash: payload.parent_hash,
            fee_recipient: payload.fee_recipient,
            state_root: payload.state_root,
            receipts_root: payload.receipts_root,
            logs_bloom: payload.logs_bloom,
            prev_randao: payload.prev_randao,
            block_number: payload.block_number,
            gas_limit: payload.gas_limit,
            gas_used: payload.gas_used,
            timestamp: payload.timestamp,
            extra_data: payload.extra_data,
            base_fee_per_gas: payload.base_fee_per_gas,
            block_hash: payload.block_hash,
            transactions: payload.transactions,
            withdrawals: payload
                .withdrawals
                .into_iter()
                .map(Into::into)
                .collect::<Vec<_>>()
                .into(),
            blob_gas_used: payload.blob_gas_used,
            excess_blob_gas: payload.excess_blob_gas,
        }
    }
}

impl<E: EthSpec> From<ExecutionPayloadGloas<E>> for JsonExecutionPayloadGloas<E> {
    fn from(payload: ExecutionPayloadGloas<E>) -> Self {
        JsonExecutionPayloadGloas {
            parent_hash: payload.parent_hash,
            fee_recipient: payload.fee_recipient,
            state_root: payload.state_root,
            receipts_root: payload.receipts_root,
            logs_bloom: payload.logs_bloom,
            prev_randao: payload.prev_randao,
            block_number: payload.block_number,
            gas_limit: payload.gas_limit,
            gas_used: payload.gas_used,
            timestamp: payload.timestamp,
            extra_data: payload.extra_data,
            base_fee_per_gas: payload.base_fee_per_gas,
            block_hash: payload.block_hash,
            transactions: payload.transactions,
            withdrawals: payload
                .withdrawals
                .into_iter()
                .map(Into::into)
                .collect::<Vec<_>>()
                .into(),
            blob_gas_used: payload.blob_gas_used,
            excess_blob_gas: payload.excess_blob_gas,
        }
    }
}

impl<E: EthSpec> From<ExecutionPayload<E>> for JsonExecutionPayload<E> {
    fn from(execution_payload: ExecutionPayload<E>) -> Self {
        match execution_payload {
            ExecutionPayload::Bellatrix(payload) => JsonExecutionPayload::Bellatrix(payload.into()),
            ExecutionPayload::Capella(payload) => JsonExecutionPayload::Capella(payload.into()),
            ExecutionPayload::Deneb(payload) => JsonExecutionPayload::Deneb(payload.into()),
            ExecutionPayload::Electra(payload) => JsonExecutionPayload::Electra(payload.into()),
            ExecutionPayload::Fulu(payload) => JsonExecutionPayload::Fulu(payload.into()),
            ExecutionPayload::Gloas(payload) => JsonExecutionPayload::Gloas(payload.into()),
        }
    }
}

impl<E: EthSpec> From<JsonExecutionPayloadBellatrix<E>> for ExecutionPayloadBellatrix<E> {
    fn from(payload: JsonExecutionPayloadBellatrix<E>) -> Self {
        ExecutionPayloadBellatrix {
            parent_hash: payload.parent_hash,
            fee_recipient: payload.fee_recipient,
            state_root: payload.state_root,
            receipts_root: payload.receipts_root,
            logs_bloom: payload.logs_bloom,
            prev_randao: payload.prev_randao,
            block_number: payload.block_number,
            gas_limit: payload.gas_limit,
            gas_used: payload.gas_used,
            timestamp: payload.timestamp,
            extra_data: payload.extra_data,
            base_fee_per_gas: payload.base_fee_per_gas,
            block_hash: payload.block_hash,
            transactions: payload.transactions,
        }
    }
}
impl<E: EthSpec> From<JsonExecutionPayloadCapella<E>> for ExecutionPayloadCapella<E> {
    fn from(payload: JsonExecutionPayloadCapella<E>) -> Self {
        ExecutionPayloadCapella {
            parent_hash: payload.parent_hash,
            fee_recipient: payload.fee_recipient,
            state_root: payload.state_root,
            receipts_root: payload.receipts_root,
            logs_bloom: payload.logs_bloom,
            prev_randao: payload.prev_randao,
            block_number: payload.block_number,
            gas_limit: payload.gas_limit,
            gas_used: payload.gas_used,
            timestamp: payload.timestamp,
            extra_data: payload.extra_data,
            base_fee_per_gas: payload.base_fee_per_gas,
            block_hash: payload.block_hash,
            transactions: payload.transactions,
            withdrawals: payload
                .withdrawals
                .into_iter()
                .map(Into::into)
                .collect::<Vec<_>>()
                .into(),
        }
    }
}

impl<E: EthSpec> From<JsonExecutionPayloadDeneb<E>> for ExecutionPayloadDeneb<E> {
    fn from(payload: JsonExecutionPayloadDeneb<E>) -> Self {
        ExecutionPayloadDeneb {
            parent_hash: payload.parent_hash,
            fee_recipient: payload.fee_recipient,
            state_root: payload.state_root,
            receipts_root: payload.receipts_root,
            logs_bloom: payload.logs_bloom,
            prev_randao: payload.prev_randao,
            block_number: payload.block_number,
            gas_limit: payload.gas_limit,
            gas_used: payload.gas_used,
            timestamp: payload.timestamp,
            extra_data: payload.extra_data,
            base_fee_per_gas: payload.base_fee_per_gas,
            block_hash: payload.block_hash,
            transactions: payload.transactions,
            withdrawals: payload
                .withdrawals
                .into_iter()
                .map(Into::into)
                .collect::<Vec<_>>()
                .into(),
            blob_gas_used: payload.blob_gas_used,
            excess_blob_gas: payload.excess_blob_gas,
        }
    }
}

impl<E: EthSpec> From<JsonExecutionPayloadElectra<E>> for ExecutionPayloadElectra<E> {
    fn from(payload: JsonExecutionPayloadElectra<E>) -> Self {
        ExecutionPayloadElectra {
            parent_hash: payload.parent_hash,
            fee_recipient: payload.fee_recipient,
            state_root: payload.state_root,
            receipts_root: payload.receipts_root,
            logs_bloom: payload.logs_bloom,
            prev_randao: payload.prev_randao,
            block_number: payload.block_number,
            gas_limit: payload.gas_limit,
            gas_used: payload.gas_used,
            timestamp: payload.timestamp,
            extra_data: payload.extra_data,
            base_fee_per_gas: payload.base_fee_per_gas,
            block_hash: payload.block_hash,
            transactions: payload.transactions,
            withdrawals: payload
                .withdrawals
                .into_iter()
                .map(Into::into)
                .collect::<Vec<_>>()
                .into(),
            blob_gas_used: payload.blob_gas_used,
            excess_blob_gas: payload.excess_blob_gas,
        }
    }
}

impl<E: EthSpec> From<JsonExecutionPayloadFulu<E>> for ExecutionPayloadFulu<E> {
    fn from(payload: JsonExecutionPayloadFulu<E>) -> Self {
        ExecutionPayloadFulu {
            parent_hash: payload.parent_hash,
            fee_recipient: payload.fee_recipient,
            state_root: payload.state_root,
            receipts_root: payload.receipts_root,
            logs_bloom: payload.logs_bloom,
            prev_randao: payload.prev_randao,
            block_number: payload.block_number,
            gas_limit: payload.gas_limit,
            gas_used: payload.gas_used,
            timestamp: payload.timestamp,
            extra_data: payload.extra_data,
            base_fee_per_gas: payload.base_fee_per_gas,
            block_hash: payload.block_hash,
            transactions: payload.transactions,
            withdrawals: payload
                .withdrawals
                .into_iter()
                .map(Into::into)
                .collect::<Vec<_>>()
                .into(),
            blob_gas_used: payload.blob_gas_used,
            excess_blob_gas: payload.excess_blob_gas,
        }
    }
}

impl<E: EthSpec> From<JsonExecutionPayloadGloas<E>> for ExecutionPayloadGloas<E> {
    fn from(payload: JsonExecutionPayloadGloas<E>) -> Self {
        ExecutionPayloadGloas {
            parent_hash: payload.parent_hash,
            fee_recipient: payload.fee_recipient,
            state_root: payload.state_root,
            receipts_root: payload.receipts_root,
            logs_bloom: payload.logs_bloom,
            prev_randao: payload.prev_randao,
            block_number: payload.block_number,
            gas_limit: payload.gas_limit,
            gas_used: payload.gas_used,
            timestamp: payload.timestamp,
            extra_data: payload.extra_data,
            base_fee_per_gas: payload.base_fee_per_gas,
            block_hash: payload.block_hash,
            transactions: payload.transactions,
            withdrawals: payload
                .withdrawals
                .into_iter()
                .map(Into::into)
                .collect::<Vec<_>>()
                .into(),
            blob_gas_used: payload.blob_gas_used,
            excess_blob_gas: payload.excess_blob_gas,
        }
    }
}

impl<E: EthSpec> From<JsonExecutionPayload<E>> for ExecutionPayload<E> {
    fn from(json_execution_payload: JsonExecutionPayload<E>) -> Self {
        match json_execution_payload {
            JsonExecutionPayload::Bellatrix(payload) => ExecutionPayload::Bellatrix(payload.into()),
            JsonExecutionPayload::Capella(payload) => ExecutionPayload::Capella(payload.into()),
            JsonExecutionPayload::Deneb(payload) => ExecutionPayload::Deneb(payload.into()),
            JsonExecutionPayload::Electra(payload) => ExecutionPayload::Electra(payload.into()),
            JsonExecutionPayload::Fulu(payload) => ExecutionPayload::Fulu(payload.into()),
            JsonExecutionPayload::Gloas(payload) => ExecutionPayload::Gloas(payload.into()),
        }
    }
}

#[derive(Debug, Clone)]
pub enum RequestsError {
    InvalidHex(hex::FromHexError),
    EmptyRequest(usize),
    InvalidOrdering,
    InvalidPrefix(u8),
    DecodeError(String),
}

/// Format of `ExecutionRequests` received over the engine api.
///
/// Array of ssz-encoded requests list encoded as hex bytes prefixed
/// with a `RequestType`
#[derive(Debug, Default, Clone, PartialEq, Serialize, Deserialize)]
#[serde(transparent)]
pub struct JsonExecutionRequests(pub Vec<String>);

impl<E: EthSpec> TryFrom<JsonExecutionRequests> for ExecutionRequests<E> {
    type Error = RequestsError;

    fn try_from(value: JsonExecutionRequests) -> Result<Self, Self::Error> {
        let mut requests = ExecutionRequests::default();
        let mut prev_prefix: Option<RequestType> = None;
        for (i, request) in value.0.into_iter().enumerate() {
            // hex string
            let decoded_bytes = hex::decode(request.strip_prefix("0x").unwrap_or(&request))
                .map_err(RequestsError::InvalidHex)?;

            // The first byte of each element is the `request_type` and the remaining bytes are the `request_data`.
            // Elements with empty `request_data` **MUST** be excluded from the list.
            let Some((prefix_byte, request_bytes)) = decoded_bytes.split_first() else {
                return Err(RequestsError::EmptyRequest(i));
            };
            if request_bytes.is_empty() {
                return Err(RequestsError::EmptyRequest(i));
            }
            // Elements of the list **MUST** be ordered by `request_type` in ascending order
            let current_prefix = RequestType::from_u8(*prefix_byte)
                .ok_or(RequestsError::InvalidPrefix(*prefix_byte))?;
            if let Some(prev) = prev_prefix
                && prev.to_u8() >= current_prefix.to_u8()
            {
                return Err(RequestsError::InvalidOrdering);
            }
            prev_prefix = Some(current_prefix);

            match current_prefix {
                RequestType::Deposit => {
                    requests.deposits = DepositRequests::<E>::from_ssz_bytes(request_bytes)
                        .map_err(|e| {
                            RequestsError::DecodeError(format!(
                                "Failed to decode DepositRequest from EL: {:?}",
                                e
                            ))
                        })?;
                }
                RequestType::Withdrawal => {
                    requests.withdrawals = WithdrawalRequests::<E>::from_ssz_bytes(request_bytes)
                        .map_err(|e| {
                        RequestsError::DecodeError(format!(
                            "Failed to decode WithdrawalRequest from EL: {:?}",
                            e
                        ))
                    })?;
                }
                RequestType::Consolidation => {
                    requests.consolidations =
                        ConsolidationRequests::<E>::from_ssz_bytes(request_bytes).map_err(|e| {
                            RequestsError::DecodeError(format!(
                                "Failed to decode ConsolidationRequest from EL: {:?}",
                                e
                            ))
                        })?;
                }
            }
        }
        Ok(requests)
    }
}

#[superstruct(
    variants(Bellatrix, Capella, Deneb, Electra, Fulu, Gloas),
    variant_attributes(
        derive(Debug, PartialEq, Serialize, Deserialize),
        serde(bound = "E: EthSpec", rename_all = "camelCase")
    ),
    cast_error(ty = "Error", expr = "Error::IncorrectStateVariant"),
    partial_getter_error(ty = "Error", expr = "Error::IncorrectStateVariant")
)]
#[derive(Debug, PartialEq, Serialize, Deserialize)]
#[serde(untagged)]
pub struct JsonGetPayloadResponse<E: EthSpec> {
    #[superstruct(
        only(Bellatrix),
        partial_getter(rename = "execution_payload_bellatrix")
    )]
    pub execution_payload: JsonExecutionPayloadBellatrix<E>,
    #[superstruct(only(Capella), partial_getter(rename = "execution_payload_capella"))]
    pub execution_payload: JsonExecutionPayloadCapella<E>,
    #[superstruct(only(Deneb), partial_getter(rename = "execution_payload_deneb"))]
    pub execution_payload: JsonExecutionPayloadDeneb<E>,
    #[superstruct(only(Electra), partial_getter(rename = "execution_payload_electra"))]
    pub execution_payload: JsonExecutionPayloadElectra<E>,
    #[superstruct(only(Fulu), partial_getter(rename = "execution_payload_fulu"))]
    pub execution_payload: JsonExecutionPayloadFulu<E>,
    #[superstruct(only(Gloas), partial_getter(rename = "execution_payload_gloas"))]
    pub execution_payload: JsonExecutionPayloadGloas<E>,
    #[serde(with = "serde_utils::u256_hex_be")]
    pub block_value: Uint256,
    #[superstruct(only(Deneb, Electra, Fulu, Gloas))]
    pub blobs_bundle: JsonBlobsBundleV1<E>,
    #[superstruct(only(Deneb, Electra, Fulu, Gloas))]
    pub should_override_builder: bool,
    #[superstruct(only(Electra, Fulu, Gloas))]
    pub execution_requests: JsonExecutionRequests,
}

impl<E: EthSpec> TryFrom<JsonGetPayloadResponse<E>> for GetPayloadResponse<E> {
    type Error = String;
    fn try_from(json_get_payload_response: JsonGetPayloadResponse<E>) -> Result<Self, Self::Error> {
        match json_get_payload_response {
            JsonGetPayloadResponse::Bellatrix(response) => {
                Ok(GetPayloadResponse::Bellatrix(GetPayloadResponseBellatrix {
                    execution_payload: response.execution_payload.into(),
                    block_value: response.block_value,
                }))
            }
            JsonGetPayloadResponse::Capella(response) => {
                Ok(GetPayloadResponse::Capella(GetPayloadResponseCapella {
                    execution_payload: response.execution_payload.into(),
                    block_value: response.block_value,
                }))
            }
            JsonGetPayloadResponse::Deneb(response) => {
                Ok(GetPayloadResponse::Deneb(GetPayloadResponseDeneb {
                    execution_payload: response.execution_payload.into(),
                    block_value: response.block_value,
                    blobs_bundle: response.blobs_bundle.into(),
                    should_override_builder: response.should_override_builder,
                }))
            }
            JsonGetPayloadResponse::Electra(response) => {
                Ok(GetPayloadResponse::Electra(GetPayloadResponseElectra {
                    execution_payload: response.execution_payload.into(),
                    block_value: response.block_value,
                    blobs_bundle: response.blobs_bundle.into(),
                    should_override_builder: response.should_override_builder,
                    requests: response.execution_requests.try_into().map_err(|e| {
                        format!("Failed to convert json to execution requests : {:?}", e)
                    })?,
                }))
            }
            JsonGetPayloadResponse::Fulu(response) => {
                Ok(GetPayloadResponse::Fulu(GetPayloadResponseFulu {
                    execution_payload: response.execution_payload.into(),
                    block_value: response.block_value,
                    blobs_bundle: response.blobs_bundle.into(),
                    should_override_builder: response.should_override_builder,
                    requests: response.execution_requests.try_into().map_err(|e| {
                        format!("Failed to convert json to execution requests  {:?}", e)
                    })?,
                }))
            }
            JsonGetPayloadResponse::Gloas(response) => {
                Ok(GetPayloadResponse::Gloas(GetPayloadResponseGloas {
                    execution_payload: response.execution_payload.into(),
                    block_value: response.block_value,
                    blobs_bundle: response.blobs_bundle.into(),
                    should_override_builder: response.should_override_builder,
                    requests: response.execution_requests.try_into().map_err(|e| {
                        format!("Failed to convert json to execution requests  {:?}", e)
                    })?,
                }))
            }
        }
    }
}

#[derive(Debug, PartialEq, Clone, Serialize, Deserialize)]
#[serde(rename_all = "camelCase")]
pub struct JsonWithdrawal {
    #[serde(with = "serde_utils::u64_hex_be")]
    pub index: u64,
    #[serde(with = "serde_utils::u64_hex_be")]
    pub validator_index: u64,
    #[serde(with = "serde_utils::address_hex")]
    pub address: Address,
    #[serde(with = "serde_utils::u64_hex_be")]
    pub amount: u64,
}

impl From<Withdrawal> for JsonWithdrawal {
    fn from(withdrawal: Withdrawal) -> Self {
        Self {
            index: withdrawal.index,
            validator_index: withdrawal.validator_index,
            address: withdrawal.address,
            amount: withdrawal.amount,
        }
    }
}

impl From<JsonWithdrawal> for Withdrawal {
    fn from(jw: JsonWithdrawal) -> Self {
        Self {
            index: jw.index,
            validator_index: jw.validator_index,
            address: jw.address,
            amount: jw.amount,
        }
    }
}
#[derive(Debug, PartialEq, Clone, RlpEncodable)]
pub struct EncodableJsonWithdrawal<'a> {
    pub index: u64,
    pub validator_index: u64,
    pub address: &'a [u8],
    pub amount: u64,
}

impl<'a> From<&'a JsonWithdrawal> for EncodableJsonWithdrawal<'a> {
    fn from(json_withdrawal: &'a JsonWithdrawal) -> Self {
        Self {
            index: json_withdrawal.index,
            validator_index: json_withdrawal.validator_index,
            address: json_withdrawal.address.as_slice(),
            amount: json_withdrawal.amount,
        }
    }
}

#[superstruct(
    variants(V1, V2, V3),
    variant_attributes(
        derive(Debug, Clone, PartialEq, Serialize, Deserialize),
        serde(rename_all = "camelCase")
    ),
    cast_error(ty = "Error", expr = "Error::IncorrectStateVariant"),
    partial_getter_error(ty = "Error", expr = "Error::IncorrectStateVariant")
)]
#[derive(Debug, Clone, PartialEq, Serialize, Deserialize)]
#[serde(untagged)]
pub struct JsonPayloadAttributes {
    #[serde(with = "serde_utils::u64_hex_be")]
    pub timestamp: u64,
    pub prev_randao: Hash256,
    #[serde(with = "serde_utils::address_hex")]
    pub suggested_fee_recipient: Address,
    #[superstruct(only(V2, V3))]
    pub withdrawals: Vec<JsonWithdrawal>,
    #[superstruct(only(V3))]
    pub parent_beacon_block_root: Hash256,
}

impl From<PayloadAttributes> for JsonPayloadAttributes {
    fn from(payload_attributes: PayloadAttributes) -> Self {
        match payload_attributes {
            PayloadAttributes::V1(pa) => Self::V1(JsonPayloadAttributesV1 {
                timestamp: pa.timestamp,
                prev_randao: pa.prev_randao,
                suggested_fee_recipient: pa.suggested_fee_recipient,
            }),
            PayloadAttributes::V2(pa) => Self::V2(JsonPayloadAttributesV2 {
                timestamp: pa.timestamp,
                prev_randao: pa.prev_randao,
                suggested_fee_recipient: pa.suggested_fee_recipient,
                withdrawals: pa.withdrawals.into_iter().map(Into::into).collect(),
            }),
            PayloadAttributes::V3(pa) => Self::V3(JsonPayloadAttributesV3 {
                timestamp: pa.timestamp,
                prev_randao: pa.prev_randao,
                suggested_fee_recipient: pa.suggested_fee_recipient,
                withdrawals: pa.withdrawals.into_iter().map(Into::into).collect(),
                parent_beacon_block_root: pa.parent_beacon_block_root,
            }),
        }
    }
}

impl From<JsonPayloadAttributes> for PayloadAttributes {
    fn from(json_payload_attributes: JsonPayloadAttributes) -> Self {
        match json_payload_attributes {
            JsonPayloadAttributes::V1(jpa) => Self::V1(PayloadAttributesV1 {
                timestamp: jpa.timestamp,
                prev_randao: jpa.prev_randao,
                suggested_fee_recipient: jpa.suggested_fee_recipient,
            }),
            JsonPayloadAttributes::V2(jpa) => Self::V2(PayloadAttributesV2 {
                timestamp: jpa.timestamp,
                prev_randao: jpa.prev_randao,
                suggested_fee_recipient: jpa.suggested_fee_recipient,
                withdrawals: jpa.withdrawals.into_iter().map(Into::into).collect(),
            }),
            JsonPayloadAttributes::V3(jpa) => Self::V3(PayloadAttributesV3 {
                timestamp: jpa.timestamp,
                prev_randao: jpa.prev_randao,
                suggested_fee_recipient: jpa.suggested_fee_recipient,
                withdrawals: jpa.withdrawals.into_iter().map(Into::into).collect(),
                parent_beacon_block_root: jpa.parent_beacon_block_root,
            }),
        }
    }
}

#[derive(Debug, PartialEq, Serialize, Deserialize)]
#[serde(bound = "E: EthSpec", rename_all = "camelCase")]
pub struct JsonBlobsBundleV1<E: EthSpec> {
    pub commitments: KzgCommitments<E>,
    pub proofs: KzgProofs<E>,
    #[serde(with = "ssz_types::serde_utils::list_of_hex_fixed_vec")]
    pub blobs: BlobsList<E>,
}

impl<E: EthSpec> From<BlobsBundle<E>> for JsonBlobsBundleV1<E> {
    fn from(blobs_bundle: BlobsBundle<E>) -> Self {
        Self {
            commitments: blobs_bundle.commitments,
            proofs: blobs_bundle.proofs,
            blobs: blobs_bundle.blobs,
        }
    }
}
impl<E: EthSpec> From<JsonBlobsBundleV1<E>> for BlobsBundle<E> {
    fn from(json_blobs_bundle: JsonBlobsBundleV1<E>) -> Self {
        Self {
            commitments: json_blobs_bundle.commitments,
            proofs: json_blobs_bundle.proofs,
            blobs: json_blobs_bundle.blobs,
        }
    }
}

#[superstruct(
    variants(V1, V2),
    variant_attributes(
        derive(Debug, Clone, PartialEq, Serialize, Deserialize),
        serde(bound = "E: EthSpec", rename_all = "camelCase")
    )
)]
#[derive(Debug, Clone, PartialEq, Serialize, Deserialize)]
pub struct BlobAndProof<E: EthSpec> {
    #[serde(with = "ssz_types::serde_utils::hex_fixed_vec")]
    pub blob: Blob<E>,
    /// KZG proof for the blob (Deneb)
    #[superstruct(only(V1))]
    pub proof: KzgProof,
    /// KZG cell proofs for the extended blob (PeerDAS)
    #[superstruct(only(V2))]
    pub proofs: KzgProofs<E>,
}

#[derive(Debug, PartialEq, Clone, Serialize, Deserialize)]
#[serde(rename_all = "camelCase")]
pub struct JsonForkchoiceStateV1 {
    pub head_block_hash: ExecutionBlockHash,

    pub safe_block_hash: ExecutionBlockHash,

    pub finalized_block_hash: ExecutionBlockHash,
}

impl From<ForkchoiceState> for JsonForkchoiceStateV1 {
    fn from(f: ForkchoiceState) -> Self {
        // Use this verbose deconstruction pattern to ensure no field is left unused.
        let ForkchoiceState {
            head_block_hash,
            safe_block_hash,
            finalized_block_hash,
        } = f;

        Self {
            head_block_hash,
            safe_block_hash,
            finalized_block_hash,
        }
    }
}

impl From<JsonForkchoiceStateV1> for ForkchoiceState {
    fn from(j: JsonForkchoiceStateV1) -> Self {
        // Use this verbose deconstruction pattern to ensure no field is left unused.
        let JsonForkchoiceStateV1 {
            head_block_hash,
            safe_block_hash,
            finalized_block_hash,
        } = j;

        Self {
            head_block_hash,
            safe_block_hash,
            finalized_block_hash,
        }
    }
}

#[derive(Debug, Clone, Copy, PartialEq, Serialize, Deserialize, EnumString)]
#[serde(rename_all = "SCREAMING_SNAKE_CASE")]
#[strum(serialize_all = "SCREAMING_SNAKE_CASE")]
pub enum JsonPayloadStatusV1Status {
    Valid,
    Invalid,
    Syncing,
    Accepted,
    InvalidBlockHash,
}

#[derive(Debug, PartialEq, Clone, Serialize, Deserialize)]
#[serde(rename_all = "camelCase")]
pub struct JsonPayloadStatusV1 {
    pub status: JsonPayloadStatusV1Status,
    pub latest_valid_hash: Option<ExecutionBlockHash>,
    pub validation_error: Option<String>,
}

impl From<PayloadStatusV1Status> for JsonPayloadStatusV1Status {
    fn from(e: PayloadStatusV1Status) -> Self {
        match e {
            PayloadStatusV1Status::Valid => JsonPayloadStatusV1Status::Valid,
            PayloadStatusV1Status::Invalid => JsonPayloadStatusV1Status::Invalid,
            PayloadStatusV1Status::Syncing => JsonPayloadStatusV1Status::Syncing,
            PayloadStatusV1Status::Accepted => JsonPayloadStatusV1Status::Accepted,
            PayloadStatusV1Status::InvalidBlockHash => JsonPayloadStatusV1Status::InvalidBlockHash,
        }
    }
}
impl From<JsonPayloadStatusV1Status> for PayloadStatusV1Status {
    fn from(j: JsonPayloadStatusV1Status) -> Self {
        match j {
            JsonPayloadStatusV1Status::Valid => PayloadStatusV1Status::Valid,
            JsonPayloadStatusV1Status::Invalid => PayloadStatusV1Status::Invalid,
            JsonPayloadStatusV1Status::Syncing => PayloadStatusV1Status::Syncing,
            JsonPayloadStatusV1Status::Accepted => PayloadStatusV1Status::Accepted,
            JsonPayloadStatusV1Status::InvalidBlockHash => PayloadStatusV1Status::InvalidBlockHash,
        }
    }
}

impl From<PayloadStatusV1> for JsonPayloadStatusV1 {
    fn from(p: PayloadStatusV1) -> Self {
        // Use this verbose deconstruction pattern to ensure no field is left unused.
        let PayloadStatusV1 {
            status,
            latest_valid_hash,
            validation_error,
        } = p;

        Self {
            status: status.into(),
            latest_valid_hash,
            validation_error,
        }
    }
}

impl From<JsonPayloadStatusV1> for PayloadStatusV1 {
    fn from(j: JsonPayloadStatusV1) -> Self {
        // Use this verbose deconstruction pattern to ensure no field is left unused.
        let JsonPayloadStatusV1 {
            status,
            latest_valid_hash,
            validation_error,
        } = j;

        Self {
            status: status.into(),
            latest_valid_hash,
            validation_error,
        }
    }
}

#[derive(Debug, PartialEq, Clone, Serialize, Deserialize)]
#[serde(rename_all = "camelCase")]
pub struct JsonForkchoiceUpdatedV1Response {
    pub payload_status: JsonPayloadStatusV1,
    pub payload_id: Option<TransparentJsonPayloadId>,
}

impl From<JsonForkchoiceUpdatedV1Response> for ForkchoiceUpdatedResponse {
    fn from(j: JsonForkchoiceUpdatedV1Response) -> Self {
        // Use this verbose deconstruction pattern to ensure no field is left unused.
        let JsonForkchoiceUpdatedV1Response {
            payload_status: status,
            payload_id,
        } = j;

        Self {
            payload_status: status.into(),
            payload_id: payload_id.map(Into::into),
        }
    }
}
impl From<ForkchoiceUpdatedResponse> for JsonForkchoiceUpdatedV1Response {
    fn from(f: ForkchoiceUpdatedResponse) -> Self {
        // Use this verbose deconstruction pattern to ensure no field is left unused.
        let ForkchoiceUpdatedResponse {
            payload_status: status,
            payload_id,
        } = f;

        Self {
            payload_status: status.into(),
            payload_id: payload_id.map(Into::into),
        }
    }
}

#[derive(Clone, Debug, Serialize, Deserialize)]
#[serde(bound = "E: EthSpec")]
pub struct JsonExecutionPayloadBodyV1<E: EthSpec> {
    #[serde(with = "ssz_types::serde_utils::list_of_hex_var_list")]
    pub transactions: Transactions<E>,
    pub withdrawals: Option<VariableList<JsonWithdrawal, E::MaxWithdrawalsPerPayload>>,
}

impl<E: EthSpec> From<JsonExecutionPayloadBodyV1<E>> for ExecutionPayloadBodyV1<E> {
    fn from(value: JsonExecutionPayloadBodyV1<E>) -> Self {
        Self {
            transactions: value.transactions,
            withdrawals: value.withdrawals.map(|json_withdrawals| {
                Withdrawals::<E>::from(
                    json_withdrawals
                        .into_iter()
                        .map(Into::into)
                        .collect::<Vec<_>>(),
                )
            }),
        }
    }
}

impl<E: EthSpec> From<ExecutionPayloadBodyV1<E>> for JsonExecutionPayloadBodyV1<E> {
    fn from(value: ExecutionPayloadBodyV1<E>) -> Self {
        Self {
            transactions: value.transactions,
            withdrawals: value.withdrawals.map(|withdrawals| {
                VariableList::from(withdrawals.into_iter().map(Into::into).collect::<Vec<_>>())
            }),
        }
    }
}

#[derive(Clone, Copy, Debug, PartialEq, Serialize, Deserialize)]
#[serde(rename_all = "camelCase")]
pub struct TransitionConfigurationV1 {
    #[serde(with = "serde_utils::u256_hex_be")]
    pub terminal_total_difficulty: Uint256,

    pub terminal_block_hash: ExecutionBlockHash,
    #[serde(with = "serde_utils::u64_hex_be")]
    pub terminal_block_number: u64,
}

/// Serializes the `logs_bloom` field of an `ExecutionPayload`.
pub mod serde_logs_bloom {
    use super::*;
    use serde::{Deserializer, Serializer};
    use serde_utils::hex::PrefixedHexVisitor;

    pub fn serialize<S, U>(bytes: &FixedVector<u8, U>, serializer: S) -> Result<S::Ok, S::Error>
    where
        S: Serializer,
        U: Unsigned,
    {
        let mut hex_string: String = "0x".to_string();
        hex_string.push_str(&hex::encode(&bytes[..]));

        serializer.serialize_str(&hex_string)
    }

    pub fn deserialize<'de, D, U>(deserializer: D) -> Result<FixedVector<u8, U>, D::Error>
    where
        D: Deserializer<'de>,
        U: Unsigned,
    {
        let vec = deserializer.deserialize_string(PrefixedHexVisitor)?;

        FixedVector::new(vec)
            .map_err(|e| serde::de::Error::custom(format!("invalid logs bloom: {:?}", e)))
    }
}

#[derive(Debug, Clone, Serialize, Deserialize)]
#[serde(rename_all = "camelCase")]
pub struct JsonClientVersionV1 {
    pub code: String,
    // This `default` is required until Geth v1.13.x is no longer supported on mainnet.
    // See: https://github.com/ethereum/go-ethereum/pull/29351
    #[serde(default)]
    pub name: String,
    pub version: String,
    pub commit: String,
}

impl From<ClientVersionV1> for JsonClientVersionV1 {
    fn from(client_version: ClientVersionV1) -> Self {
        Self {
            code: client_version.code.to_string(),
            name: client_version.name,
            version: client_version.version,
            commit: client_version.commit.to_string(),
        }
    }
}

impl TryFrom<JsonClientVersionV1> for ClientVersionV1 {
    type Error = String;

    fn try_from(json: JsonClientVersionV1) -> Result<Self, Self::Error> {
        Ok(Self {
            code: json.code.try_into()?,
            name: json.name,
            version: json.version,
            commit: json.commit.try_into()?,
        })
    }
}

#[cfg(test)]
mod tests {
    use ssz::Encode;
    use types::{
        ConsolidationRequest, DepositRequest, MainnetEthSpec, PublicKeyBytes, RequestType,
        SignatureBytes, WithdrawalRequest,
    };

    use super::*;

    fn create_request_string<T: Encode>(prefix: u8, request_bytes: &T) -> String {
        format!(
            "0x{:02x}{}",
            prefix,
            hex::encode(request_bytes.as_ssz_bytes())
        )
    }

    /// Tests all error conditions except ssz decoding errors
    ///
    /// ***
    /// Elements of the list MUST be ordered by request_type in ascending order.
    /// Elements with empty request_data MUST be excluded from the list.
    /// If any element is out of order, has a length of 1-byte or shorter,
    /// or more than one element has the same type byte, client software MUST return -32602: Invalid params error.
    /// ***
    #[test]
    fn test_invalid_execution_requests() {
        let deposit_request = DepositRequest {
            pubkey: PublicKeyBytes::empty(),
            withdrawal_credentials: Hash256::random(),
            amount: 32,
            signature: SignatureBytes::empty(),
            index: 0,
        };

        let consolidation_request = ConsolidationRequest {
            source_address: Address::random(),
            source_pubkey: PublicKeyBytes::empty(),
            target_pubkey: PublicKeyBytes::empty(),
        };

        let withdrawal_request = WithdrawalRequest {
            amount: 32,
            source_address: Address::random(),
            validator_pubkey: PublicKeyBytes::empty(),
        };

        // First check a valid request with all requests
        assert!(
            ExecutionRequests::<MainnetEthSpec>::try_from(JsonExecutionRequests(vec![
                create_request_string(RequestType::Deposit.to_u8(), &deposit_request),
                create_request_string(RequestType::Withdrawal.to_u8(), &withdrawal_request),
                create_request_string(RequestType::Consolidation.to_u8(), &consolidation_request),
            ]))
            .is_ok()
        );

        // Single requests
        assert!(
            ExecutionRequests::<MainnetEthSpec>::try_from(JsonExecutionRequests(vec![
                create_request_string(RequestType::Deposit.to_u8(), &deposit_request),
            ]))
            .is_ok()
        );

        assert!(
            ExecutionRequests::<MainnetEthSpec>::try_from(JsonExecutionRequests(vec![
                create_request_string(RequestType::Withdrawal.to_u8(), &withdrawal_request),
            ]))
            .is_ok()
        );

        assert!(
            ExecutionRequests::<MainnetEthSpec>::try_from(JsonExecutionRequests(vec![
                create_request_string(RequestType::Consolidation.to_u8(), &consolidation_request),
            ]))
            .is_ok()
        );

        // Out of order
        assert!(matches!(
            ExecutionRequests::<MainnetEthSpec>::try_from(JsonExecutionRequests(vec![
                create_request_string(RequestType::Withdrawal.to_u8(), &withdrawal_request),
                create_request_string(RequestType::Deposit.to_u8(), &deposit_request),
            ]))
            .unwrap_err(),
            RequestsError::InvalidOrdering
        ));

        assert!(matches!(
            ExecutionRequests::<MainnetEthSpec>::try_from(JsonExecutionRequests(vec![
                create_request_string(RequestType::Consolidation.to_u8(), &consolidation_request),
                create_request_string(RequestType::Withdrawal.to_u8(), &withdrawal_request),
            ]))
            .unwrap_err(),
            RequestsError::InvalidOrdering
        ));

        assert!(matches!(
            ExecutionRequests::<MainnetEthSpec>::try_from(JsonExecutionRequests(vec![
                create_request_string(RequestType::Consolidation.to_u8(), &consolidation_request),
                create_request_string(RequestType::Deposit.to_u8(), &deposit_request),
            ]))
            .unwrap_err(),
            RequestsError::InvalidOrdering
        ));

        // Multiple requests of same type
        assert!(matches!(
            ExecutionRequests::<MainnetEthSpec>::try_from(JsonExecutionRequests(vec![
                create_request_string(RequestType::Deposit.to_u8(), &deposit_request),
                create_request_string(RequestType::Deposit.to_u8(), &deposit_request),
            ]))
            .unwrap_err(),
            RequestsError::InvalidOrdering
        ));

        // Invalid prefix
        assert!(matches!(
            ExecutionRequests::<MainnetEthSpec>::try_from(JsonExecutionRequests(vec![
                create_request_string(42, &deposit_request),
            ]))
            .unwrap_err(),
            RequestsError::InvalidPrefix(42)
        ));

        // Prefix followed by no data
        assert!(matches!(
            ExecutionRequests::<MainnetEthSpec>::try_from(JsonExecutionRequests(vec![
                create_request_string(RequestType::Deposit.to_u8(), &deposit_request),
                create_request_string(
                    RequestType::Consolidation.to_u8(),
                    &Vec::<ConsolidationRequest>::new()
                ),
            ]))
            .unwrap_err(),
            RequestsError::EmptyRequest(1)
        ));
        // Empty request
        assert!(matches!(
            ExecutionRequests::<MainnetEthSpec>::try_from(JsonExecutionRequests(vec![
                create_request_string(RequestType::Deposit.to_u8(), &deposit_request),
                "0x".to_string()
            ]))
            .unwrap_err(),
            RequestsError::EmptyRequest(1)
        ));
    }
}
